Eun Soo Noh scite author profile

Summer mortality, caused by thermal conditions, is the biggest threat to abalone aquaculture production industries. Various measures have been taken to mitigate this issue by adjusting the environment; however, the cellular processes of Pacific abalone (Haliotis discus hannai) have been overlooked due to the paucity of genetic information. The draft genome of H. discus hannai has recently been reported, prompting exploration of the genes responsible for thermal regulation in Pacific abalone. In this study, 413 proteins were systematically annotated as members of the heat shock protein (HSP) super families, and among them 26 HSP genes from four Pacific abalone tissues (hemocytes, gill, mantle, and muscle) were differentially expressed under cold and heat stress conditions. The co-expression network revealed that HSP expression patterns were tissue-specific and similar to those of other shellfish inhabiting intertidal zones. Finally, representative HSPs were selected at random and their expression patterns were identified by RNA sequencing and validated by qRT-PCR to assess expression significance. The HSPs expressed in hemocytes were highly similar in both analyses, suggesting that hemocytes could be more reliable samples for validating thermal condition markers compared to other tissues.

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Rapid and Specific Identification of Genus Cynoglossus by Multiplex PCR Assays Using Species-specific Derived from the COI Region

Noh¹,

Kang²,

An³

et al. 2016

Journal of Life Science

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Classification of Takifugu rubripes, T. chinensis and T. pseudommus by genotyping-by-sequencing

et al. 2020

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Takifugu rubripes is more expensive than other species of the genus because of its high protein content and special flavor. However, it is easily confused with imported T. chinensis and T. pseudommus because they have similar morphological characteristics. We identified single nucleotide polymorphism (SNP) markers of T. rubripes by genotyping-by-sequencing (GBS) and evaluated their ability to distinguish among T. rubripes, T. chinensis, and T. pseudommus. In all, 18 polymorphic SNPs were subjected to phylogenetic analyses of the three Takifugu species. Additionally, we subjected a second set of samples to Sanger sequencing to verify that the polymorphic SNPs could be used to evaluate the genetic variation among the three Takifugu species. A phylogenetic tree that included the analyzed sequence of set A, which is referred to as the reference sequence, and a validation sequence of set B with 18 SNPs were produced. Based on this phylogenetic tree and STRUCTURE analyses, T. rubripes, T. chinensis and T. pseudommus have low genetic variation and should be considered the same gene pool. Our findings suggest that further studies are needed to estimate the genetic association of the three Takifugu species.

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Eun Soo Noh

Discrimination of raw material species in mixed seafood products (surimi) using the next generation sequencing method

Quantitative analysis of Alaska pollock in seafood products by droplet digital PCR

Expression of Heat Shock Proteins in Thermally Challenged Pacific Abalone Haliotis discus hannai

Rapid and Specific Identification of Genus Cynoglossus by Multiplex PCR Assays Using Species-specific Derived from the COI Region

Classification of Takifugu rubripes, T. chinensis and T. pseudommus by genotyping-by-sequencing

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